Advancing sustainable agriculture: a critical review of smart and eco-friendly nanomaterial applications

Balusamy, Sri Renukadevi; Joshi, Abhayraj S.; Perumalsamy, Haribalan; Mijakovic, Ivan; Singh, Priyanka

doi:10.1186/s12951-023-02135-3

Cited by 33 publications

(6 citation statements)

References 93 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…For example, Shen et al (2017) improved the therapeutic efficacy of phosphorothioate antisense oligonucleotides and reduced toxicity through chemical modifications (Hu et al, 2023). Alternatively, using nanomaterials to deliver fungicides is an effective strategy to reduce the possible side effects (Balusamy et al, 2023). For example, Fischer et al ( 2019) used nanocarriers to deliver Pyraclostrobin to plants for controlling grapevine fungal disease and minimize the side effects by releasing only the fungicide encased within the nanocarrier upon degradation by fungal enzymes.…”

Section: Discussionmentioning

confidence: 99%

Inhibitor of cardiolipin biosynthesis-related enzyme MoGep4 confers broad-spectrum anti-fungal activity

Sun,

Zhao,

Sha

et al. 2024

Preprint

View full text Add to dashboard Cite

Plant pathogens cause devastating diseases, leading to serious losses to agriculture. Mechanistic understanding of pathogenesis of plant pathogens lays the foundation for the development of fungicides for disease control. Mitophagy, a specific form of autophagy, is important for fungal virulence. The role of cardiolipin, mitochondrial signature phospholipid, in mitophagy and pathogenesis is largely unknown in plant pathogenic fungi. The functions of enzymes involved in cardiolipin biosynthesis and relevant inhibitors were assessed using a set of assays, including genetic deletion, plant infection, lipidomics, chemical-protein interaction, chemical inhibition, and field trials. Our results showed that the cardiolipin biosynthesis-related geneMoGEP4of the rice blast fungusMagnaporthe oryzaeregulates growth, conidiation, cardiolipin biosynthesis, and virulence. Mechanistically, MoGep4 regulated mitophagy and Mps1-MAPK phosphorylation, which are required for virulence. Chemical alexidine dihydrochloride (AXD) inhibited the enzyme activity of MoGep4, cardiolipin biosynthesis and mitophagy. Importantly, AXD efficiently inhibited the growth of 10 plant pathogens and controlled rice blast and Fusarium head blight in the field. Our study demonstrated that MoGep4 regulates mitophagy, Mps1 phosphorylation and pathogenesis inM. oryzae. In addition, we found that the MoGep4 inhibitor, AXD, displays broad-spectrum antifungal activity and is a promising candidate for fungicide development.

show abstract

Section: Discussionmentioning

confidence: 99%

Inhibitor of cardiolipin biosynthesis-related enzyme MoGep4 confers broad-spectrum anti-fungal activity

Sun,

Zhao,

Sha

et al. 2024

Preprint

View full text Add to dashboard Cite

show abstract

“…The ultra-small particle size of NPs makes them immensely useful for deterioration of ROS at enzymatic, non-enzymatic, biochemical, and molecular levels. However, contrastingly, the same properties of NPs adversely affect the health of plants, as well as humans [ 213 , 214 , 215 ]. These challenges and limitations hinder their widespread use and acceptance.…”

Section: Current Challenges and Limitationsmentioning

confidence: 99%

Nanoparticles as a Tool for Alleviating Plant Stress: Mechanisms, Implications, and Challenges

Kumari,

Gupta,

Sharma

et al. 2024

Plants

View full text Add to dashboard Cite

Plants, being sessile, are continuously exposed to varietal environmental stressors, which consequently induce various bio-physiological changes in plants that hinder their growth and development. Oxidative stress is one of the undesirable consequences in plants triggered due to imbalance in their antioxidant defense system. Biochemical studies suggest that nanoparticles are known to affect the antioxidant system, photosynthesis, and DNA expression in plants. In addition, they are known to boost the capacity of antioxidant systems, thereby contributing to the tolerance of plants to oxidative stress. This review study attempts to present the overview of the role of nanoparticles in plant growth and development, especially emphasizing their role as antioxidants. Furthermore, the review delves into the intricate connections between nanoparticles and plant signaling pathways, highlighting their influence on gene expression and stress-responsive mechanisms. Finally, the implications of nanoparticle-assisted antioxidant strategies in sustainable agriculture, considering their potential to enhance crop yield, stress tolerance, and overall plant resilience, are discussed.

show abstract

“…Sustainable agriculture and nanofertilizers has the second highest growth rate in the Applications category and co-occurs primarily with nanoparticles. [49][50][51] Nanomaterials are of interest due to their potential to help address the world's food security and agricultural challenges such as those caused by pesticides, traditional fertilizers, climate change, irrigation difficulties, and poor soil quality. They are also considered a possible pathway to sustainable fertilizers.…”

Section: Applicationsmentioning

confidence: 99%

Nanoscale materials at work: Mapping emerging applications in energy, medicine, and beyond

Hughes,

Ganesan,

Tenchov

et al. 2024

Preprint

View full text Add to dashboard Cite

Since their inception in the early 1960s, the use of nanoscale materials has progressed in leaps and bounds, and their role in diverse fields ranging from human health to energy is undeniable. In this report, we utilize the CAS Content Collection, a vast repository of scientific information extracted from journal and patent publications, to identify emerging topics in this field. This involves understanding trends, such as the growth of certain topics over time, as well as establishing relationships between emerging topics. We achieved this by using a host of strategies including a quantitative natural language processing (NLP) approach to identify 279 emerging topics and sub-topics across three major categories – materials, applications, and properties – by surveying roughly 3 million publications in the nanoscience landscape. This wealth of information has been condensed into several conceptual mind maps and other graphs that provide metrics related to the growth of identified emerging concepts, group them into hierarchical classes, and explore the connections between them. We delved deeper into four major emerging applications of nanoscale materials – drug delivery, sensors, energy, and catalysis – to provide a more comprehensive and detailed picture of the use of nanotechnology in these fields. In addition, we leveraged the CAS registry, consisting of over 250 million substances, to determine and discover substances across varied classes (such as polymers, elements, organic/inorganic molecules) and how they are utilized in the 4 major applications. Our extensive analysis taking advantage of an NLP-based approach along with robust CAS indexing provides valuable insights in the field that we hope can help to inform and drive future research efforts.

show abstract

Advancing sustainable agriculture: a critical review of smart and eco-friendly nanomaterial applications

Cited by 33 publications

References 93 publications

Inhibitor of cardiolipin biosynthesis-related enzyme MoGep4 confers broad-spectrum anti-fungal activity

Inhibitor of cardiolipin biosynthesis-related enzyme MoGep4 confers broad-spectrum anti-fungal activity

Nanoparticles as a Tool for Alleviating Plant Stress: Mechanisms, Implications, and Challenges

Nanoscale materials at work: Mapping emerging applications in energy, medicine, and beyond

Contact Info

Product

Resources

About